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Introduction to Heat and Mass Transfer is the gold standard of heat transfer pedagogy for more than 30 years, with a commitment to continuous improvement by four authors having more than 150 years of combined experience in heat transfer education, research and practice. Using a rigorous and systematic problem-solving methodology pioneered by this text, it is abundantly filled with examples and problems that reveal the richness and beauty of the discipline. This edition maintains its foundation in the four central learning objectives for students and also makes heat and mass transfer more approachable with an additional emphasis on the fundamental concepts, as well as highlighting the relevance of those ideas with exciting applications to the most critical issues of today and the coming decades: energy and the environment. An updated version of Interactive Heat Transfer (IHT) software makes it even easier to efficiently and accurately solve problems.
Content:-
Symbols
CHAPTER 1: Introduction
CHAPTER 1: Introduction
CHAPTER 2: Introduction to Conduction
CHAPTER 3: One-Dimensional, Steady-State Conduction
CHAPTER 4: Two-Dimensional, Steady-State Conduction
CHAPTER 5: Transient Conduction
CHAPTER 6: Introduction to Convection
CHAPTER 7: External Flow
CHAPTER 8: Internal Flow
CHAPTER 9: Free Convection
CHAPTER 10: Boiling and Condensation
CHAPTER 11: Heat Exchangers
CHAPTER 12: Radiation: Processes and Properties
CHAPTER 13: Radiation Exchange Between Surfaces
CHAPTER 14: Diffusion Mass Transfer
APPENDIX A: Thermophysical Properties of Matter
APPENDIX B: Mathematical Relations and Functions
APPENDIX C: Thermal Conditions Associated with Uniform Energy Generation in One-Dimensional, Steady-State Systems
APPENDIX D: The Gauss–Seidel Method
APPENDIX E: The Convection Transfer Equations
APPENDIX B: Mathematical Relations and Functions
APPENDIX C: Thermal Conditions Associated with Uniform Energy Generation in One-Dimensional, Steady-State Systems
APPENDIX D: The Gauss–Seidel Method
APPENDIX E: The Convection Transfer Equations
APPENDIX F: Boundary Layer Equations for Turbulent Flow
APPENDIX G: An Integral Laminar Boundary Layer Solution for
Parallel Flow over a Flat Plate
Index
APPENDIX G: An Integral Laminar Boundary Layer Solution for
Parallel Flow over a Flat Plate
Index
Author Details
THEODORE L. BERGMAN Department of Mechanical Engineering University of Connecticut
ADRIENNE S. LAVINE Mechanical and Aerospace Engineering Department University of California, Los Angeles
FRANK P. INCROPERA College of Engineering University of Notre Dame
DAVID P. DEWITT School of Mechanical Engineering Purdue University
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